Product Integration: full integration with ANSYS Fluent.
User Interface: dedicated GUI and TUI (scriptable).
Process Integration: morphing directly inside the solving stage without modifying the geometry, regenerating the mesh and setup again the case.
Mesh Topology: modification of the original surface and volume mesh producing a nodal smoothing without changing the mesh topology.
Surface Morphing: surface mesh can be modified by free surface deformation, rigid movement or scaling.
Volume Smoothing: high quality smoothing of the volume mesh with relatively large movements possible in a single step deformation.
Versatility: nodal smoothing is achieved by means of a mesh-less approach that is independent from the mesh structure, handling every kind of mesh element type (tetrahedral, hexahedral, polyhedral, prismatic, hexcore, non-conformal interfaces, etc.).
Reusability: the RBF solution can be applied to any different mesh representing the same geometry.
Consistency: mesh characteristics are preserved so mesh consistency is ensured (element size, type and distribution, prism layers, etc.).
Parallelism: parallel calculation for large models (many millions of cells).
Efficiency: flow solutions are fully readable through all the morphed mesh, reducing the number of iterations to converge.
Precision: exact movement is ensured for the moving nodes locations as well as exact feature preservation.
Parameterization: multi-parameter and multi-step problems.
CAD: transfer modifications back to CAD by applying to STEP files similar modifications done on the mesh, in order to fully support the re-design of the morphed surfaces.
